Highly available removable media storage network environment

ABSTRACT

A removable media storage network environment employs a media management system for managing a removable media system on behalf of client applications, and a media management agent to enhance the management of the removable media system by the media management system. The media management agent operates to determine an operational state of the removable media system, and to enhance an availability and a performance of the removable media system as managed by a media management system, wherein one or more one error recovery techniques are conditionally initiated based on the determined operational state of the removable media system and wherein the media management system is conditionally reconfigured based on the determined operational state of the removable media system.

FIELD OF INVENTION

The present invention generally relates to the management of removablemedia. The present invention specifically relates to managing removablemedia in a manner that achieves a high availability of the removablemedia to client applications, an effective load balancing of theremovable media, and an efficient error recovery of removable media.

BACKGROUND OF THE INVENTION

A Media Management System (“MMS”) is a distributed, multi-platformsystem for managing removable media either in the form of computer media(e.g., magnetic tape, optical disk, and CD-ROM) or in the form ofnon-computer media (e.g., audiotape, video tape, file, audio CDs andvideodiscs). IEEE standards for the MMS define a software componentmodel for working with the removable media as well as a number ofprotocols that define interfaces between the various software componentsof the MMS. These standards enable vendors to construct applicationsthat use removable media as well as components of a MMS thatinteroperate with other MMS components.

MMSs are more and more becoming the central interface for accessingremovable media in a storage networking environment. As such, a MMS hasto be highly available in order to provide access to the removable mediawhenever it is needed. This can be achieved with various knowntechniques (e.g., load balancing and error recovery). A challengetherefore for the removable media storage industry is to implement ahighly available removable media storage network environment employing aMMS in accordance with the IEEE standards.

SUMMARY OF THE INVENTION

One form of the present invention is signal bearing medium tangiblyembodying a program of machine-readable instructions executable by atleast one processor to perform operations to enhance a management of aremovable media system by a media management system. The operationscomprise a determination of an operational state of the removable mediasystem, and an enhancement of an availability and a performance of theremovable media system as managed by the media management system,wherein one or more one error recovery techniques are conditionallyinitiated based on the determined operational state of the removablemedia system and wherein the media management system is conditionallyreconfigured based on the determined operational state of the removablemedia system.

A second form of the present invention is a system comprising at leastone processor and at least one memory storing instructions operable withthe processor(s) for enhancing a management of a removable media systemby a media management system. The instructions are executed fordetermining an operational state of the removable media system, and anenhancing an availability and a performance of the removable mediasystem as managed by the media management system, wherein one or moreone error recovery techniques are conditionally initiated based on thedetermined operational state of the removable media system and whereinthe media management system is conditionally reconfigured based on thedetermined operational state of the removable media system.

A third form of the present invention is method comprising adetermination of an operational state of the removable media system, andan enhancement of an availability and a performance of the removablemedia system as managed by the media management system, wherein one ormore one error recovery techniques are conditionally initiated based onthe determined operational state of the removable media system andwherein the media management system is conditionally reconfigured basedon the determined operational state of the removable media system.

The forgoing forms and other forms, objects, and aspects as well asfeatures and advantages of the present invention will become furtherapparent from the following detailed description of the variousembodiments of the present invention, read in conjunction with theaccompanying drawings. The detailed description and drawings are merelyillustrative of the present invention, rather than limiting the scope ofthe present invention being defined by the appended claims andequivalents thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates an exemplary removable media storage networkingenvironment for practicing the present invention;

FIG. 2 illustrates a flowchart representative of one embodiment of amedia management agent operation method in accordance with the presentinvention;

FIG. 3 illustrates an exemplary operation of the removable media storagenetworking environment illustrated in FIG. 1 in accordance with theflowchart illustrated in FIG. 2;

FIG. 4 illustrates a flowchart representative of one embodiment of tapedrive readiness test method in accordance with the present invention;

FIG. 5 illustrates a flowchart representative of one embodiment of atape degradation management method in accordance with the presentinvention;

FIG. 6 illustrates a flowchart representative of one embodiment of ascratch tape pool management method in accordance with the presentinvention;

FIG. 7 illustrates a flowchart representative of one embodiment of atape drive mount management method in accordance with the presentinvention;

FIG. 8 illustrates a flowchart representative of one embodiment of atape drive error management method in accordance with the presentinvention; and

FIG. 9 illustrates a flowchart representative of one embodiment of atape drive access route management method in accordance with the presentinvention.

DESCRIPTION OF THE PRESENT INVENTION

FIG. 1 illustrates an exemplary removable media storage networkingenvironment for practicing the present invention. Referring to FIG. 1,the present invention provides a new and unique media management agent(“MMA”) 30 that enhances the capabilities of a media management system(“MMS”) 20 and its associated database 21 in facilitating a highavailability of a Y number of registered tape systems 60 for one or moreclient applications (“CA”) 10 to implement data I/O functions and toallocate, mount, unmount and deallocate volumes, where Y≧1. To this end,client application(s) 10, media management system 20 and mediamanagement agent 30 are distributed among an X number of storagemanagement servers 40, where X≧1. Further, server(s) are physicallyconnected via a storage area network (“SAN”) fabric 50 to the Y numberof tape systems 60. Each tape system 60 employs a Z number of tapedrives TD for up to Z number of tape cartridges from a respective tapecartridge pool 61, where Z≧1, and a library 62.

In one embodiment, as is well known in the art, media management system20 employs one or more software managers serving a central repositoryfor metadata that describes the tape drives of tape system(s) 60, thetape cartridges of tape system(s) 60, client application(s) 10,libraries 62 of tape system(s) 60, and the usage history of mediamanagement system 30. Additionally, the software manager(s) of mediamanagement system 20 facilitate access by client application(s) 10 totape system(s) 60, and arbitrate competing demands by clientapplication(s) 10 for tape system(s) 60.

An operation of media management agent 30 will now be described hereinin connection with FIGS. 2 and 3. From this description, those havingordinary skill in the art of the present invention will appreciate thevarious advantages and benefits of media management agent 30 inenhancing media management system 20 and its associated database 21 infacilitating a high availability and performance of tape system(s) 60for client application(s) 10. Additionally, those having ordinary skillin the art of the present invention will appreciate the applicability ofmedia management agent 30 to other forms of removable media systems(e.g., optical disk systems).

Referring to FIG. 2, media management agent 30 implements a flowchart 70to enhance media management system 20 and its associated database 21 infacilitating a high availability and performance of an assigned tapesystem 60 for client application(s) 10. A stage S72 of flowchart 70encompasses media management agent 30 determining an operational stateof the assigned tape system 60. In one embodiment of stage S72, mediamanagement agent 30 monitors the tape drives and tape cartridges of theassigned tape system 60. Additionally, media management agent 30collects operational information OINFO as illustrated in FIG. 3 viastandard storage network interfaces (e.g., Fiber Channel, SCSI andiSCSI) whereby the operational information OINFO is related, directly orindirectly, to the monitored tape drives and tape cartridges of theassigned tape system 60. Operational information OINFO is in the form oferror data, usage data and/or performance data that is related, directlyand/or indirectly, to the monitored tape drives and tape cartridges ofthe assigned tape system 60.

A stage S74 of flowchart 70 encompasses media management agent 30enhancing the availability and performance of the assigned tape system60 for client application(s) 10 as managed by media management system20. In one embodiment of stage S74, media management agent 30conditionally initiates one or more error recovery techniques of thetape drives and/or the tape cartridges of the assigned tape system 60based on the determined operational state of the assigned tape system60. For example, media management agent 30 can use the operationalinformation OINFO to detect trends and/or faults in the assigned tapesystem 60 that is resulting or may result in an unacceptableavailability and/or performance of the assigned tape system 60 tothereby initiate error recovery techniques of the tape drives and/or thetape cartridges of the assigned tape system 60 in response to adetection of such trends and/or faults.

Additionally, media management agent 30 conditionally issuesreconfiguration commands RECON as illustrated in FIG. 3 to reconfiguremedia management system 20 based on the determined operational state ofthe assigned tape system 60. For example, media management agent 30 canset or cause to be set various object attributes and parameters of mediamanagement system 20 based on operational information OINFO of theassigned tape system 60 (e.g., priority of the assigned tape system 60and access routes from client application(s) 10 to the assigned tapesystem 60).

In practice, the manner by which media management agent 30 executes thisembodiment of stage S74 is without limit. Thus, the followingdescription in connection with FIGS. 4-9 of various methods implementedby media management agent 30 during stage S74 is not a limitation as tothe scope of stage S74.

FIG. 4 illustrates a flowchart 80 representative of a tape drivereadiness test method of the present invention. Referring to FIGS. 1 and4, a stage S82 of flowchart 80 encompasses media management agent 30testing a readiness of a tape drive of the assigned tape system 60. Ifmedia management agent 30 decides during a stage S84 of flowchart 80that the tape drive is operationally ready to be accessed by clientapplication(s) 10, then media management agent 30 proceeds to terminateflowchart 80 or return to stage S82 to test the readiness of anothertape drive of the assigned tape system 60. Otherwise, during a stage S86of flowchart 80, media management agent 30 commands media managementsystem 20 to disable the tape drive in media management system 20 andimplements a conventional error recovery technique for the disabled tapedrive.

If media management agent 30 decides during a stage S88 of flowchart 80that the tape drive is operationally ready to be accessed by a clientapplication 10 after an implementation of the error recovery technique,then media management agent 30 proceeds to a stage S90 of flowchart 80to command media management system 20 to enable the error recovered tapedrive in media management system 20, and subsequently terminatesflowchart 80 or returns to stage S82 to test the readiness of anothertape drive of the assigned tape system 60. Otherwise, during a stage S92of flowchart 80, media management agent 30 performances any necessaryadministrative tasks to facilitate a repair of the disabled tape drive,such as, for example, contact a storage network administrator.

FIG. 5 illustrates a flowchart 100 representative of a tape cartridgedegradation method of the present invention. Referring to FIGS. 1 and 5,a stage S102 of flowchart 100 encompasses media management agent 30testing a degradation status of a mounted tape cartridge of the assignedtape system 60. If media management agent 30 decides during a stage S104of flowchart 100 that the tape cartridge is not degraded to the extentthat makes the data on tape cartridge inaccessible by clientapplication(s) 10, then media management agent 30 proceeds to terminateflowchart 100 or return to stage S102 to test a degradation status ofanother mounted tape cartridge of the assigned tape system 60.Otherwise, during stages S106 and S108 of flowchart 100, mediamanagement agent 30 copies as much of the data stored on the degradedtape cartridge as possible to a sound mounted tape cartridge of theassigned tape system 60, optionally erases the copied data from thedegraded tape cartridge, ejects the degraded tape cartridge from itscorresponding tape drive, and performs any necessary administrativetasks. Thereafter, media management agent 30 proceeds to terminateflowchart 100 or return to stage S102 to test a degradation status ofanother mounted tape cartridge of the assigned tape system 60.

FIG. 6 illustrates a flowchart 110 representative of a scratch tape poolmanagement method of the present invention. Referring to FIGS. 1 and 6,stage S112 of flowchart 110 encompasses media management agent 30determining a number of scratch tape cartridges among the tape pool 61of the assigned tape system 60. If media management agent 30 decidesduring a stage S114 of flowchart 110 that the number of scratch tapecartridges among tape pool 61 of the assigned tape system 60 is equal toor greater than a predetermined threshold, then media management agent30 proceeds to terminate flowchart 110. Otherwise, during a stage S116of flowchart 110, media management agent 30 performs any necessaryadministrative tasks to ensure that more scratch cartridges becomeavailable for the assigned tape system 60. Thereafter, media managementagent 30 proceeds to terminate flowchart 100.

FIG. 7 illustrates a flowchart 120 representative of a tape drive mountmanagement method of the present invention, and FIG. 8 illustrates aflowchart 140 representative of a tape drive mount management method ofthe present invention. These methods are related to a priority allocatedto the assigned tape system 60 for purposes of distributing a workloadamong all available tape drives of tape system(s) 60. In particular,media management system 20 will allocate a priority attribute for thetape drives of tape system(s) 60 whereby tape drives with a higherpriority will be used in mount operations in favor of tape drives with alower priority.

Referring to FIGS. 1 and 7, a stage S122 of flowchart 120 encompassesmedia management agent 30 obtaining statistics indicative of a number ofmounts of a dismounted tape drive of the assigned tape system 60.Thereafter, during a stage S126 of flowchart 120, media management agent30 will mount a cleaning cartridge in the tape drive, clean the tapedrive and reset a clean mount counter if media management agent 30decided during a stage S124 that the number of mounts of the tape driveexceeded a predetermined cleaning threshold. Subsequently, during astage S130 of flowchart 120, media management agent 30 will commandmedia management system 20 to disable the tape drive in media managementsystem 20 and perform any necessary administrative tasks if mediamanagement agent 30 decided during a stage S128 of flowchart 120 thatthe number of mounts of the tape drive exceeded a predeterminedmaintenance threshold.

After conditionally executing or not executing stages S126 and S128,media management agent 30 will command media management system 20 toadjust the priority of the tape drive. In one embodiment, the priorityof the tape drive is adjusted by a calculating the priority as adifference between a maximum priority (“maxpriority”) of the tape driveand a mount factor of the tape drive, which is based on a difference ofthe maximum priority of the tape drive and a ratio of the number ofrecorded mounts of the tape drive to a maximum allowable number ofmounts of the tape drive (“maxpriority−(mounts/maxmounts)”). Thereafter,media management agent 30 terminates flowchart 120.

Referring to FIGS. 1 and 8, a stage S142 of flowchart 140 encompassesmedia management agent 30 obtaining statistics indicative of a number oferrors of a dismounted tape drive of the assigned tape system 60.Thereafter, during a stage S146 of flowchart 140, media management agent30 will disable the tape drive in media management system 20 and performany necessary administrative tasks if media management agent 30 decidedduring a stage S144 of flowchart 150 that the number of errors of thetape drive exceeded a predetermined error threshold.

After conditionally executing or not executing stage S146, mediamanagement agent 30 will command media management system 20 to adjustthe priority of the tape drive. In one embodiment, the priority of thetape drive is adjusted by a calculating the priority as a differencebetween a maximum priority (“maxpriority”) of the tape drive and anerror factor of the tape drive, which is based on a difference of themaximum priority of the tape drive and a ratio of the number of recordederrors of the tape drive to a maximum allowable number of errors of thetape drive (“maxpriority−(errors/maxerrors)”). Thereafter, mediamanagement agent 30 terminates flowchart 120.

Referring to FIGS. 7 and 8, media management agent 30 may bestructurally configured to implement respective flowcharts 120 and 140as needed. As such, the priority adjustment of a tape drive underflowcharts 120 and 140 can involve a synergism of stages S132 and S148as would be appreciated by those having ordinary skill in the art.

FIG. 9 illustrates a flowchart 150 representative of a tape drive accessroute method of the present invention. Referring to FIGS. 1 and 9, astage S152 of flowchart 150 encompasses media management agent 30obtaining statistics indicative of each access route from one of theservers 40 via SAN fabric 50 to a tape drive TD of the assigned tapesystem 60. If media management agent 30 decides during a stage S156 offlowchart 150 that at lease one access route is visible, then mediamanagement agent 30 terminates flowchart 150 or returns to stage S152 toobtain access route statistics on another tape drive TD of the assignedtape system 60. Otherwise, media management agent 30 proceeds to a stageS156 of flowchart 150 to notify media management system 20 of eachinvisible access route.

If media management agent 30 decides during a stage S158 of flowchart150 that one or more visible alternate routes from one of the servers 40via SAN fabric 50 to the tape drive TD of the assigned tape system 60does exist, then media management agent 30 proceeds to a stage S162 offlowchart 160 to notify media management system 20 of the visiblealternative route(s). Otherwise, media management agent 30 proceeds to astage S160 of flowchart 150 to disable the tape drive in mediamanagement system 20 and perform any necessary administrative tasks.After executing either stage S160 or stage S162, media management agent30 terminates flowchart 150 or returns to stage S152 to obtain accessroute statistics on another tape drive of the assigned tape system 160.

Referring to FIGS. 2-9, the various methods of the present inventionwere described herein in the context of a media management agent 30being assigned to a single tape system 60 for purposes of facilitatingan understanding of the present invention. In practice, a mediamanagement agent 30 can be assigned to multiple tape systems 60.

Furthermore, media management agent 30 can implement the various methodsof the present invention on a continual basis, a periodic basis, anintermittent basis, or an event basis. For example, media managementagent 30 can register with media management system 20 to be notifiedwhen a tape cartridge has been unmounted from an assigned tape system 60whereby media management agent 30 will sequentially implement flowchart80 (FIG. 4), flowchart 120 (FIG. 7), flowchart 140 (FIG. 8) andflowchart 150 (FIG. 9) in response to receiving such a notification.

Referring to FIG. 1, in a practical embodiment, media management system20 and media management agent 30 are embodied as software moduleswritten in a conventional language and installed within a memory of asingle server 40 or memories of different servers 40 whereby the serverprocessor(s) can execute media management system 20 and media managementagent 30 to perform various operations of the present invention asdescribed in connection with the illustrations of FIGS. 2-9.

While the embodiments of the present invention disclosed herein arepresently considered to be preferred embodiments, various changes andmodifications can be made without departing from the spirit and scope ofthe present invention. The scope of the invention is indicated in theappended claims, and all changes that come within the meaning and rangeof equivalents are intended to be embraced therein.

1. A signal bearing medium tangibly embodying a program ofmachine-readable instructions executable by at least one processor toperform operations to enhance a management of a removable media systemby a media management system, the operations comprising: determining anoperational state of the removable media system; and enhancing anavailability and a performance of the removable media system as managedby the media management system, wherein at least one error recoverytechnique is conditionally initiated based on the determined operationalstate of the removable media system, and wherein the media managementsystem is conditionally reconfigured based on the determined operationalstate of the removable media system.
 2. The signal bearing medium ofclaim 1, wherein the removable media system is a tape system includingat least one tape drive and at least one tape cartridge.
 3. The signalbearing medium of claim 1, wherein the determining of the operationalstate of the removable media system includes collecting operationalinformation of a removable media drive of the removable media system;and wherein the enhancing of the availability and the performance of theremovable media system as managed by the media management systemincludes conditionally imitating the at least one error recoverytechnique based on the collected operational information of theremovable media drive.
 4. The signal bearing medium of claim 1, whereinthe determining of the operational state of the removable media systemincludes collecting operational information of a first removable mediaof the removable media system; and wherein the enhancing of theavailability and the performance of the removable media system asmanaged by the media management system includes conditionally copying atleast a portion of the data stored on the first removable media to asecond removable media of the removable media system based on thecollected operational information of the first removable media.
 5. Thesignal bearing medium of claim 1, wherein the determining of theoperational state of the removable media system includes collectingoperational information of a removable media drive of the removablemedia system; and wherein the enhancing of the availability and theperformance of the removable media system as managed by the mediamanagement system includes at least one of: conditionally cleaning theremovable media drive based on the collected operational information ofthe removable media drive; and adjusting a priority of the removablemedia drive in the media management system based on the collectedoperational information of the removable media drive.
 6. The signalbearing medium of claim 1, wherein the determining of the operationalstate of the removable media system includes collecting operationalinformation of a removable media drive of the removable media system;and wherein the enhancing of the availability and the performance of theremovable media system as managed by the media management systemincludes at least one of: conditionally disabling the removable mediadrive in the media management system based on the collected operationalinformation of the removable media drive; and adjusting a priority ofthe removable media drive in the media management system based on thecollected operational information of the removable media drive.
 7. Thesignal bearing medium of claim 1, wherein the determining of theoperational state of the removable media system includes collectingoperational information of a removable media drive of the removablemedia system; and wherein the enhancing of the availability and theperformance of the removable media system as managed by the mediamanagement system includes conditionally notifying the media managementsystem of a visibility state of at least one access route from at leastone client application to the removable media drive.
 8. A system,comprising: at least one processor; and at least one memory storinginstructions operable with the at least one processor for enhancing amanagement of a removable media system by a media management system, theinstructions being executed for: determining an operational state of theremovable media system; and enhancing an availability and a performanceof the removable media system as managed by the media management system,wherein at least one error recovery technique is conditionally initiatedbased on the determined operational state of the removable media system,and wherein the media management system is conditionally reconfiguredbased on the determined operational state of the removable media system.9. The system of claim 8, wherein the removable media system is a tapesystem including at least one tape drive and at least one tapecartridge.
 10. The system of claim 8, wherein the determining of theoperational state of the removable media system includes collectingoperational information of a removable media drive of the removablemedia system; and wherein the enhancing of the availability and theperformance of the removable media system as managed by the mediamanagement system includes conditionally imitating the at least oneerror recovery technique based on the collected operational informationof the removable media drive.
 11. The system of claim 8, wherein thedetermining of the operational state of the removable media systemincludes collecting operational information of a first removable mediaof the removable media system; and wherein the enhancing of theavailability and the performance of the removable media system asmanaged by the media management system includes conditionally copying atleast a portion of the data stored on the first removable media to asecond removable media of the removable media system based on thecollected operational information of the first removable media.
 12. Thesystem of claim 8, wherein the determining of the operational state ofthe removable media system includes collecting operational informationof a removable media drive of the removable media system; and whereinthe enhancing of the availability and the performance of the removablemedia system as managed by the media management system includes at leastone of: conditionally cleaning the removable media drive based on thecollected operational information of the removable media drive; andadjusting a priority of the removable media drive in the mediamanagement system based on the collected operational information of theremovable media drive.
 13. The system of claim 8, wherein thedetermining of the operational state of the removable media systemincludes collecting operational information of a removable media driveof the removable media system; and wherein the enhancing of theavailability and the performance of the removable media system asmanaged by the media management system includes at least one of:conditionally disabling the removable media drive in the mediamanagement system based on the collected operational information of theremovable media drive; and adjusting a priority of the removable mediadrive in the media management system based on the collected operationalinformation of the removable media drive.
 14. The system of claim 8,wherein the determining of the operational state of the removable mediasystem includes collecting operational information of a removable mediadrive of the removable media system; and wherein the enhancing of theavailability and the performance of the removable media system asmanaged by the media management system includes conditionally notifyingthe media management system of a visibility state of at least one accessroute from at least one client application to the removable media drive.15. A method for enhancing a management of a removable media system by amedia management system, the method comprising: determining anoperational state of the removable media system; and enhancing anavailability and a performance of the removable media system as managedby the media management system, wherein at least one error recoverytechnique is conditionally initiated based on the determined operationalstate of the removable media system, and wherein the media managementsystem is conditionally reconfigured based on the determined operationalstate of the removable media system.
 16. The method of claim 15, whereinthe removable media system is a tape system including at least one tapedrive and at least one tape cartridge.
 17. The method of claim 15,wherein the determining of the operational state of the removable mediasystem includes collecting operational information of a removable mediadrive of the removable media system; and wherein the enhancing of theavailability and the performance of the removable media system asmanaged by the media management system includes conditionally imitatingthe at least one error recovery technique based on the collectedoperational information of the removable media drive.
 18. The method ofclaim 15, wherein the determining of the operational state of theremovable media system includes collecting operational information of afirst removable media of the removable media system; and wherein theenhancing of the availability and the performance of the removable mediasystem as managed by the media management system includes conditionallycopying at least a portion of the data stored on the first removablemedia to a second removable media of the removable media system based onthe collected operational information of the first removable media. 19.The method of claim 15, wherein the determining of the operational stateof the removable media system includes collecting operationalinformation of a removable media drive of the removable media system;and wherein the enhancing of the availability and the performance of theremovable media system as managed by the media management systemincludes at least one of: conditionally cleaning the removable mediadrive based on the collected operational information of the removablemedia drive; and adjusting a priority of the removable media drive inthe media management system based on the collected operationalinformation of the removable media drive.
 20. The method of claim 15,wherein the determining of the operational state of the removable mediasystem includes collecting operational information of a removable mediadrive of the removable media system; and wherein the enhancing of theavailability and the performance of the removable media system asmanaged by the media management system includes at least one of:conditionally disabling the removable media drive in the mediamanagement system based on the collected operational information of theremovable media drive; and adjusting a priority of the removable mediadrive in the media management system based on the collected operationalinformation of the removable media drive.
 21. The method of claim 15,wherein the determining of the operational state of the removable mediasystem includes collecting operational information of a removable mediadrive of the removable media system; and wherein the enhancing of theavailability and the performance of the removable media system asmanaged by the media management system includes conditionally notifyingthe media management system of a visibility state of at least one accessroute from at least one client application to the removable media drive.22. A system, comprising: a media management system operable tomanagement a removable media system; and a media management agentoperable to determine an operational state of the removable media systemand to enhance an availability and a performance of the removable mediasystem as managed by the media management system, wherein at least oneerror recovery technique is conditionally initiated by the mediamanagement agent based on the determined operational state of theremovable media system, and wherein the media management system isconditionally reconfigured by the media management agent based on thedetermined operational state of the removable media system.
 23. Thesystem of claim 22, wherein the removable media system is a tape systemincluding at least one tape drive and at least one tape cartridge.